KR100697041B1 - Platetype girder bridge which platetype girder and parapet are in one body, and constructing method of bridge using the platetype girder bridge - Google Patents

Abstract

The present invention relates to a method for installing a bridge using a plate girder bridge integrally made of a top plate and a handrail applicable to an overpass or a small bridge,

     Steel pipes are installed on both sides to form the width of the bridge, and the steel pipes installed on both sides are welded to each other by steel plate to manufacture plate girder, and then the steel pipes are installed with a certain space to form a railing on the steel pipes installed on both sides. And, to manufacture a bridge girder bridge with a truss-type railing, and then to the bridge girder bridge to be installed on the pier to install the bridge.

Description

   Plate type girder bridge which platetype girder and parapet are in one body, and constructing method of bridge using the platetype girder bridge

        1 is a view showing a steel box girder bridge conventionally carried out.

        Figure 2 is a view showing the bridge is installed using the plate girder bridge of the present invention.

        Figure 3 is a view showing that the reinforcing strength by installing a steel wire or steel rod in the steel pipe used for the handrail of the plate girder bridge of the present invention.

        Figure 4 is a view showing the installation of the bridge to the unit plate girder bridge as another embodiment to install the bridge girder bridge of the present invention, the interconnection assembly.

        5 is a view showing a connection socket used when interconnecting the steel pipe of the unit plate girder bridge which is another embodiment of the present invention.

          <Description of the symbols for the main parts of the drawings>

          10; Steel box girder bridge 11; Handrail

          12; Girder 13; Steel box

          14; Pier 15; Haunting department

          16; Top plate 17; Ground

          20; Pangirder Bridge 21; Steel pipe

          22; Truss type 23; Grater

          24; Anchorage 25; Liner or rod

          26; Bolt hole 27; Pangirder

          30; Unit plate girder bridge

          40; Connection socket

The present invention relates to a method for installing a bridge using a plate girder bridge that is integrated with a ponder and railings applicable to an overpass or a small bridge,

     Steel pipes are installed on both sides to form the width of the bridge, and the steel pipes installed on both sides are welded to each other by steel plate to manufacture plate girder, and then the steel pipes are installed with a certain space to form a railing on the steel pipes installed on both sides. Then, to manufacture a bridge girder bridge in which the truss-type railings are installed in the predetermined space, the bridge girder bridge is installed on the pier to install the bridge.

     An object of the present invention is to simply install the bridge to the bridge girder bridge made of steel plates and steel pipes integrally to the bridge girder, so that the bridge space can be secured more wide, easy to manufacture According to the length of the bridge, it is possible to manufacture and install the unit girders according to the length of the bridge to reduce the manufacturing cost and shorten the construction period required for the bridge installation, and to make the girder bridge without the need for periodic maintenance. It is to provide a method for installing a bridge using.

    Conventionally, as shown in FIG. 1, in order to install a small bridge such as an overpass, a steel box 13 having a predetermined size is welded and installed on the lower center of the upper plate 16 made of steel plate, and the haunting unit 15 is installed on the left and right sides thereof. Then, the steel box girder bridge 10 for installing the handrail 11 separately on the left and right ends of the upper plate is mounted on the bridge 14 to install the bridge.

    The bridge installed as described above has a difficulty in securing a mold space due to the height of the steel box 13 separately attached to the lower part of the upper plate, and the cost of materials increases due to excessive steel material production. Period and also a problem that requires a long time, and after installation has been raised a problem that the maintenance to prevent the corrosion of the inside of the steel box 13 is periodically put into the steel box 13 has been raised.

        The present invention has been proposed to improve the above problems, the installation of a plate girder bridge made of handrails integrally to the plate girder made of steel sheet and steel pipe to simply install the bridge to the bridge, wider space It can be secured, easy to manufacture and simple to install, so that it can reduce the production cost and construction period required for the bridge installation and install the bridge using the girder bridge without the need for periodic maintenance. Is to provide.

        The present invention is to install a steel pipe 21 on both sides to form a width of the bridge so that it can be applied to overpass or small bridge, and the pipe girder 27 by welding the steel pipe 21 installed on both sides with a steel plate 23 ) And then install a steel pipe 21 with a certain space to form a railing 11 on the steel pipe 21 installed on both sides of the plate girder 27, the truss type (22) After the manufacture of the girder bridge 20 is installed on the handrail 11 of the), characterized in that the bridge is installed on the pier 14 by mounting the bridge girder bridge 20.

        Hereinafter, the configuration and operation of the present invention will be described in detail by the accompanying drawings.

        2 is a view showing the bridge is installed using the plate girder bridge of the present invention, the steel pipe 21 is installed on both sides to form the width of the bridge, the steel pipe 21 provided on both sides of the steel plate 23 After manufacturing the plate girder 27 by welding to each other, install a steel pipe 21 with a certain space to form a handrail 11 on the steel pipe 21 installed on both sides of the plate girder 27, The bridge girder bridge 20 having truss-shaped railings 11 in the predetermined space is manufactured, and the bridge girder bridge 20 is mounted on the bridge 14 to install the bridge. will be.

        Steel rods may be used in addition to the steel pipe 21, and various types and types of steel materials may be selectively used.

        The handrail 11 may be manufactured in a form other than the truss 22, but a handrail using a pattern utilizing the characteristics of the area in which the bridge is installed, or a handrail for promotion may be installed.

        3 is a view showing reinforcing the strength by installing a steel wire or steel rod in the steel pipe used for the railing of the plate girder bridge of the present invention, the steel bar or steel wire 25 in the steel pipe 21 according to the magnitude of the load acting on the bridge ) To install the fixing holes 24 at both ends of the steel pipe 21 to fix the steel bar or steel wire 25 installed in the steel pipe 21 to enhance the strength of the bridge,

        Alternatively, when a certain period has elapsed and the bridge becomes obsolete and the load capacity is required to be reinforced, the tension to tension the steel bar or steel wire 25 inserted into the steel pipe 21 to introduce a compressive force to the bridge to enhance the load capacity of the bridge. It can be used for reinforcement.

        4 is a view showing the construction of a unit plate girder bridge as another embodiment to install the bridge girder bridge of the present invention to install the bridge by assembling the interconnection, in Figure 1 the bridge 14 and the bridge 14 The installation of the plate girder bridges 20 at one time was explained mainly, but in this figure, a plurality of unit plate girder bridges 30 made by dividing a predetermined length are successively assembled and mounted on the piers 14 to one. Demonstrate the installation of the bridge.

        In order to assemble the unit plate girder bridges 30 manufactured to a predetermined length to each other, the steel pipes 21 of the unit plate girder bridges 30 must be connected to each other. When forming the bolt hole 26 to interconnect the steel pipe 21 to the connecting socket 40 to be described in Figure 5 to surround the outer surface of the steel pipe 21 or in the steel pipe 21 the connecting socket ( 40 and insert the bridges to be connected to each other using a bolt and a nut (not shown) in the bolt hole 26 formed in the steel pipe 21 and the connecting socket 40, respectively.

        Alternatively, as described in FIG. 3, when the unit plate girder bridges 30 are interconnected by using the method of installing the steel rods or steel wires 25 in the steel pipe 21, the steel bars or steel wires 25 in the steel pipe 21 are interconnected. The steel pipe 21 is connected by using the connection socket 40 described in FIG. 5 while allowing the steel rod or the steel wire 25 to be fixed to the anchoring hole 24 installed at the outermost end of the steel pipe 21 after the insertion of the tube. It can also be connected to the interconnected parts by bolts and nuts (not shown).

        FIG. 5 is a view illustrating a connection socket used to interconnect steel pipes of a unit plate girder bridge according to another embodiment of the present invention, wherein the unit plate girder bridges 30 of FIG. The connection socket 40 in which a plurality of bolt holes 26 are formed at both end portions of the steel pipe 21 having a constant diameter in the steel pipe 21 of the portion where the steel plate 21 of the unit plate girder bridge 30 is connected to each other. After installation of the steel pipe 21 is inserted into the connecting socket 40, the unit plate girder bridge 30 is connected to each other using a bolt and nut (not shown) using the bolt hole 26. Install the girder bridge by assembling it.

        As another method, the steel wire is made of a lattice-shaped steel grid like weaving fibers, and a plurality of shearing materials are installed on the steel wire to improve adhesion, and then the resin is impregnated in the upper and lower portions of the steel grid. By stacking and curing the multiple layers of geosynthetic fibers to manufacture a fiber resin tube to replace the steel pipe, and a fiber resin plate to replace the steel plate constituting the plate girder to install the plate girder bridge of the present invention using the same .

        In addition, the connecting socket used to fabricate the unit plate girder bridge by using the fiber resin plate and the fiber resin pipe is assembled in the same way as the fabric resin pipe, but a plurality of bolt holes are formed around the pipe. Do it.

        Tension force is introduced by the tensioning device after laminating and curing the civil fiber impregnated in the resin while introducing tension force to each steel wire of the steel wire lattice frame used to manufacture the fiber resin tube and the fiber resin plate using a tensioning device. Release the steel wire in the state so that the prestress is introduced to the fiber resin tube and the fiber resin plate may be used to install the bridge.

        The present invention is to install the bridge girder bridge made of steel plate and steel pipe integrally to the pier to install the bridge on the pier, it is possible to secure a wider space, the installation is simple and easy to install Therefore, it is possible to reduce the production cost and construction period required for the bridge installation, and to install the bridge by using the economical and efficient panther bridges without the need for periodic maintenance.

Claims (12)

      Steel pipes are installed on both sides to form the width of the bridge, and the plate girder is fabricated by welding the steel pipes installed on both sides to each other by a steel plate, and a space is provided to form a railing on the steel pipes installed on both sides of the plate girder. In the girder bridge in which a steel pipe and a truss-type railing are installed in the fixed space,      The plate girder bridge is made of a plate girder and railings are integrally formed by inserting separate steel wires or rods into the steel pipe, and fixing anchors are installed at both ends of the steel pipe to fix the installed steel bars or steel wires. delete         The method of claim 1,         The plate is characterized in that it is possible to increase the rigidity in the bridge by introducing a tension force in the steel rod or steel wire installed in the steel pipe or to reinforce the load capacity by introducing a tension force in the steel rod or steel wire in the case of an aging bridge. Pan-girder bridge with girder and handrails integrated.         The method of claim 1,         The girder bridge and the handrail is made in one piece, characterized in that the girder bridge is characterized by the production of the unit girder bridge of a predetermined size by connecting and assembling a plurality of unit girder bridges.         The method of claim 1,         The steel pipe and the plate girder is a fiber resin tube and a fiber resin plate laminated multiple layers of civil fibers impregnated in the resin in the upper and lower portions of the steel wire grid made of a lattice, such as weaving a steel wire installed with a plurality of shear materials, or Or a fiber resin tube and a fiber resin board to introduce prestress by releasing the steel wire after laminating and curing the civil fiber impregnated in the resin while introducing a tension force to each steel wire of the steel wire grid using a tension device. The girder bridge is made of one piece of girder and a handrail.         The method of claim 4, wherein         The plate girder bridge made of integrally formed plate girder and railings, characterized in that the connection socket is inserted into the inside or the outside of the steel pipe for the assembly assembly of the unit plate girder bridge to be interconnected by using bolts and nuts.         The method of claim 6,         The connecting socket is a girder bridge made of a plate girder and railings integrally characterized in that a plurality of bolt holes are formed at both ends of the steel pipe of a certain length having a constant diameter.         The method according to claim 4 or 6,         Steel rods or steel wires are inserted into steel pipes for the assembly and assembly of the unit plate girder bridges, and the steel bars or steel wires are fixed and interconnected to anchorages installed on both outermost ends of the steel pipes to install bridges or steel bars inserted into steel pipes or A plate girder bridge, in which a girder and a railing are integrally manufactured by introducing a tension force into a steel wire, and fixing and assembling the steel rod or steel wire in a fixing fixture provided at both ends of the outermost end of the steel pipe.      In the method of installing a bridge to be applied to an overpass or a small bridge, steel pipes are installed at both sides to form a width of the bridge,      The steel pipes installed on both sides are welded to each other by a steel plate to manufacture a plate girder, and then a steel pipe is installed with a certain space to form a railing on the steel pipes installed on both sides of the plate girder.      After the truss-shaped railings are installed in the fixed space, the girder bridge is manufactured.     In mounting the manufactured girder bridge on the bridge to install the bridge,    The plate girder and the railing are integrally manufactured by inserting a steel bar or steel wire into the steel pipe, and fixing the steel rod or steel wire to the anchorage installed at both ends of the steel pipe, or to fix the steel rod or steel wire to the anchorage after introducing a tension force. Bridge installation method using plated girder bridge. delete         The method of claim 9,         The plate girder bridge is divided into unit plate girder bridges of a predetermined length and installed in a plurality of connection assemblies, or steel bars or steel wires are inserted into steel pipes for connection and assembly of the unit plate girder bridges, and both sides of the outermost end of the steel pipes. Set up and interconnect the steel rods or steel wires in the anchorages installed in the bridges, or introduce tension to steel rods or steel wires inserted into the steel pipes, and connect the steel rods or steel wires to the anchorages installed on both outermost ends of the steel pipes. Bridge installation method using a plate girder bridge made of an integrated plate girder and handrail characterized by the assembly.         In the method of installing a bridge to be applied to an overpass or a small bridge,         After weaving steel wire into fabric, we make a grid-like steel grid and install a number of shearing materials to improve adhesion to steel wire.         Fabrication of the fiber resin pipe to replace the steel pipe and the steel plate constituting the plate girder by stacking and curing multiple layers of civil fibers impregnated in the resin in the upper and lower portions of the steel wire grid frame or the In order to introduce the prestress by releasing the steel wire after laminating and hardening the civil fiber impregnated in the resin while introducing a tension force to each steel wire of the steel wire lattice frame used in the manufacture of the fiber resin tube and the fiber resin plate of the fiber using a tension device. Make a fiber resin tube and a fiber resin plate,         Install the fabric resin pipes produced on both sides to form the width of the bridge,         The fiber resin pipes installed on both sides are connected to each other by a fiber resin plate to manufacture a plate girder,         Install a fiber resin pipe with a predetermined space to form a railing on the fiber resin pipe installed on both sides of the girder,         After the truss-shaped railing is installed in the fixed space, the girder bridge is manufactured.         Bridge mounting method using a plate girder bridge made of a plate girder and railings, characterized in that the bridge is mounted on the bridge by mounting the manufactured girder bridge.

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